RSA—非对称加密算法

时间:2022-12-21 15:52:44
RSA:非对称加密算法
加解密原理如下:
已知:p,q,n,e,d,m,c
其中:p与q互为大质数,n=p*q
      公钥Pk(n,e):加密使用,是公开的
      私钥Sk(n,d):解密使用,不公开
      c:明文  m:密文
      一般情况下取e=65537
要求: e与(p-1)*(q-1)互质
       (e*d)mod((p-1)*(q-1))=1
那么: m = c**e mod n
       c = m**d mod n

例如: Bob:公钥(50429,65537)
     Alice:私钥(50429,46793)
其中:n=50429,e=65537,d=46793,p=239,q=211,c=37
求:(1)Bob发送给Alice的密文m
    (2)Alice收到m解密后的明文c

解:(1)m = c**e mod 50429 = 37**65537 mod 50429 = 25804
    (2)c = m**d mod 50429 = 25804**46793 mod 50429 = 37
Python实现:
#-*- coding: UTF-8 -*-

__author__ = ''

__date__ = '2016/4/18'

from Tkinter import *

class RSA_hash():

    rsa_hash_en = []

    rsa_hash_de = []

    def __init__(self):

        self.root = Tk()

        self.root.title("RSA加/解密器")

        self.root.geometry()

        Label(self.root, text="RSA加/解密器", font=("Arial",15), width=15).pack()

        self.frm = Frame(self.root)

        self.frm_T = Frame(self.frm)

        self.frm_Tp = Frame(self.frm_T)

        Label(self.frm_Tp, text="素数p:", bg="red", font=("Arial",15), width=6).pack(side=LEFT)

        self.var_p = Variable()

        Entry(self.frm_Tp,textvariable=self.var_p, font=("Arial",12), width=24).pack(side=RIGHT)

        self.frm_Tp.pack()

        self.frm_Tq = Frame(self.frm_T)

        Label(self.frm_Tq, text="素数q:", bg="orange", font=("Arial",15), width=6).pack(side=LEFT)

        self.var_q = Variable()

        Entry(self.frm_Tq,textvariable=self.var_q, font=("Arial",12), width=24).pack(side=RIGHT)

        self.frm_Tq.pack()

        self.frm_Te = Frame(self.frm_T)

        Label(self.frm_Te, text="公钥e:", bg="yellow", font=("Arial",15), width=6).pack(side=LEFT)

        self.var_Pke = Variable()

        Entry(self.frm_Te,textvariable=self.var_Pke, font=("Arial",12), width=24).pack(side=RIGHT)

        self.frm_Te.pack()

        self.frm_Td = Frame(self.frm_T)

        Label(self.frm_Td, text="私钥d:", bg="green", font=("Arial",15), width=6).pack(side=LEFT)

        self.var_Skd = Variable()

        Entry(self.frm_Td,textvariable=self.var_Skd, font=("Arial",12), width=24).pack(side=RIGHT)

        self.frm_Td.pack()

        self.frm_T.pack()

        self.frm_B = Frame(self.frm)

        self.frm_TB = Frame(self.frm_B)

        Label(self.frm_TB, text="请输入:", bg="cyan", font=("Arial",15), width=6).pack(side=LEFT)

        self.var_char = Variable()

        Entry(self.frm_TB,textvariable=self.var_char, font=("Arial",12), width=24).pack(side=RIGHT)

        self.frm_TB.pack()

        self.frm_MB = Frame(self.frm_B)

        self.rsa_show = Text(self.frm_MB, bg="lavender", font=("Arial",12), width=32, height=6)

        self.rsa_show.insert("1.0","")

        self.rsa_show.pack()

        self.frm_MB.pack()

        self.frm_BB = Frame(self.frm_B)

        Button(self.frm_BB, text="清除", command=self.clear, font=("Arial",12), bd=3).pack(side=LEFT)

        Button(self.frm_BB, text="加密", command=self.encrypt, font=("Arial",12), bd=3).pack(side=RIGHT)

        Button(self.frm_BB, text="解密", command=self.decrypt, font=("Arial",12), bd=3).pack(side=RIGHT)

        self.frm_BB.pack()

        self.frm_B.pack()

        self.frm.pack()

    def clear(self):

        self.var_char.set("")

        self.var_p.set("")

        self.var_q.set("")

        self.var_Pke.set("")

        self.var_Skd.set("")

        self.rsa_show.delete("1.0",END)

    def encrypt(self):

        self.rsa_show.delete("1.0",END)

        p = int(self.var_p.get())

        q = int(self.var_q.get())

        if self.isprimer(p,q):

            phi = (p - 1) * (q - 1)

            n = p * q

        else:

            self.rsa_show.insert("1.0","请重新输入p和q(要求p与q互素)")

        e = int(self.var_Pke.get())

        if self.isprimer(e,phi):

            var_c = self.var_char.get()

            if var_c.isdigit():

                c = int(self.var_char.get())

                m = c ** e % n

                self.rsa_show.insert("1.0","密文为:%d" % m)

            else:

                for i in var_c:

                    c = ord(i)

                    if self.isprimer(e,phi):

                        m = c ** e % n

                        self.rsa_show.insert(END,"密文依次为:%d\n" % m)

        else:

            self.rsa_show.insert("1.0","e与phi互相不为素数,请重新输入公钥e")

    def decrypt(self):

        self.rsa_show.delete("1.0",END)

        p = int(self.var_p.get())

        q = int(self.var_q.get())

        if self.isprimer(p,q):

            phi = (p - 1) * (q - 1)

            n = p * q

        else:

            self.rsa_show.insert("1.0","请重新输入p和q(要求p与q互素)")

        d = int(self.var_Skd.get())

        m = int(self.var_char.get())

        e = int(self.var_Pke.get())

        if self.isprimer(e*d,phi):

            c = m ** d % n

            if c in range(0,128):

                self.rsa_show.insert("1.0","明文为: %d 或者 %s" % (c,chr(c)))

            else:

                self.rsa_show.insert("1.0","明文为: %d" % c)

        else:

            self.rsa_show.insert("1.0","您输入的密钥d不满足要求,请重新输入私钥d")

    #判断是否互素

    def isprimer(self,g,f):

        if g > f:

            s = f

        else:

            s = g

        L = []

        for i in range(s,0,-1):

            if g % i==0 and f %i ==0:

                L.append(i)

        if max(L) == 1:

            return True

        else:

            self.var_p.set("")

            self.var_q.set("")

def main():

    rsa = RSA_hash()

    mainloop()

if __name__ == "__main__":

    main()

下载 rsa_hash.exe(提取码:aef1)

相关文章